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Query: UNIPROT:Q9UIJ5 (
Rec
)
58,342
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Atrophy of zona reticularis cells was observed two weeks after surgical thyroparathyroidectomy (TPX). Quantitative morphological techniques for electron microscopy showed significant decreases in the volume of cytoplasm, nucleus, mitochondria, smooth endoplasmic reticulum and lipid droplets in the zona reticularis of TPX rats. In addition, many mitochnodria contained lipid droplets, some of which occupied virtually the entire matrix of mitochondria. The volume per cell of mitochondria with these inclusions increased significantly after TPX. The lipid droplets may well arise from cytoplasmic droplets by increased transport or reduced metabolism of cholesterol, or by direct incorporation of droplets into the mitochondrial matrix. The serum corticosterone level of TPX rats sacrificed under quiescent conditions did not differ significantly from that of controls.
Hypothyroidism
induced a significant increase in the volume of peroxisomes per cell in TPX animals which may be related to changes in lipid metabolism or transport.
Anat
Rec
1979 Jul
PMID:Effect of thyroparathyroidectomy (TPX) on the zona reticularis: a quantitative ultrastructural study. 47 6
Familial
hypothyroidism
results from both thyroidal and extrathyroidal dysfunction. Specific intrathyroidal abnormalities in thyroid hormone synthesis causing goitrous
hypothyroidism
are iodide trap defect, organification defect, "coupling" defect, iodoprotein defect, and dehalogenase defect. The diagnostic studies for each are outlined utilizing radioiodine(131I) studies. Other causes of cretinism include failure of the thyroid gland to respond to TSH and lack of pituitary TSH (or hypothalamic TRH). The syndrome of peripheral resistance to thyroid hormone is discussed. The diagnosis of inherited hypothyrodism rests on an adequate family history and measurement of both T4 and TSH levels which can be determined in cord blood or peripheral blood from the infant. The importance of early treatment of
hypothyroidism
in the neonatal period to prevent brain damage is emphasized. The
rec
:nt discovery of the importance of reverse T3 (RT3) in fetal thyroid metabolism is described, and the possibility of amniocentesis as an aid in prenatal diagnosis is considered. The place of intrauterine administration of thyroid hormone to the fetus at risk from
hypothyroidism
is uncertain at this time and requires carefully controlled studies and long-term follow-up.
...
PMID:Inherited hypothyroidism. 78 70
Congenital hypothyroidism was diagnosed in related Abyssinian cats. The disease appeared to be inherited as an autosomal recessive trait with affected homozygotes showing signs of reduced growth rate, shorter stature with kitten-like features, constipation and goitre.
Hypothyroidism
was confirmed by demonstrating low basal serum thyroxine levels which failed to increase after intravenous administration of thyroid stimulating hormone or thyrotropic releasing hormone. The radioiodide uptake of the thyroid glands was normal but a high proportion of the accumulated radioiodide was discharged after the administration of sodium perchlorate. It is concluded that the affected cats had a primary dyshormonogenesis: an organification (peroxidase) defect.
Vet
Rec
1992 Aug 15
PMID:Preliminary studies on congenital hypothyroidism in a family of Abyssinian cats. 132 5
Thyroid glands of fetal hypothyroid (hyt/hyt) mice were studied to determine the effects of the mutant gene during embryogenesis. Comparisons of mutant and normal thyroids were made with respect to morphology, iodine-concentrating ability, and glandular thyroxine (T4) content at day 18 of gestation. Fetal hyt/hyt thyroid tissue was properly located, but incompletely differentiated. The mutant thyroid was characterized microscopically by small, poorly developed follicles with colloid diminished in PAS-staining properties. The mutant glands' ability to concentrate iodine was found to be only 5--16% of that exhibited by normal glands. When litters contained both mutant and normal off-spring, the differential iodine-concentrating ability allowed fetuses to be separated into two distinct, nonoverlapping populations. The distribution of fetal mice into high or low iodine-concentrating groups agreed closely with predicted frequencies for normal and mutant phenotypes. Thyroid content of T4 in mutant mice was found to be approximately equal to that found in age-matched normal controls. The poorly developed morphology and deficient iodine-concentrating ability of fetal thyroids from day 18 hyt/hyt mice indicated that the mutant gene acts during the ontogeny of this gland. Although such data are not available on human fetuses affected by thyroid dysgenesis, postnatal hyt/hyt mice display characteristics similar to those of infants born with this form of congenital primary
hypothyroidism
. Thus, elucidation of the site of mutant gene action in the mouse should contribute to our knowledge of disturbed fetal thyroid development and its implications in the adult mammal.
Anat
Rec
1982 Mar
PMID:Defective thyroid ontogenesis in fetal hypothyroid (hyt/hyt) mice. 707 84
Some children with juvenile
hypothyroidism
exhibit unexplained precocious puberty. Interaction of TSH with the human FSH receptor (hFSH-R) is a possible pathophysiological mechanism for this syndrome that has not been explored due to the lack of hFSH-free TSH preparations and the scarcity of a suitable hFSH-R-based assay system. To devise an in vitro FSH bioassay suitable for exploring this mechanism, we expressed hFSH-R complementary DNA in COS-7 cells and stimulated them with recombinant hTSH (rec-hTSH).
Rec
-hTSH elicited a dose-dependent cAMP response in the in vitro hFSH-R bioassay; however, the concentration of
rec
-hTSH required for half-maximal stimulation was several logs greater than that of hFSH.
Rec
-hTSH acted as a competitive inhibitor of hFSH at the hFSH-R, indicating that hTSH and hFSH are acting through the same receptor, namely the hFSH-R. This provides a potential novel mechanism for the precocious puberty of juvenile
hypothyroidism
.
...
PMID:A potential novel mechanism for precocious puberty in juvenile hypothyroidism. 762 56
There have been no works devoted to the study of the influence of (131)I and maternal (131)I-induced
hypothyroidism
on the state of the C-cells in the thyroid gland of the developing embryos. A study was made on the effect of a dose of 150 microCi (131)I (0.5 Gy) leading to
hypothyroidism
in rats, on 35 mother rats and 168 newborn pups. The mother rats were divided into control and four treated groups which were injected with (131)I before pregnancy, on gestation days 5, 10, and 16, respectively. Immunohistochemically, the thyroid gland was examined for calcitonin-positive cells. Maternal
hypothyroidism
induced by (131)I leads to the development of hyperplasia and hyperthrophy of calcitonin-positive cells in the pups at the time of birth. The discovery of separate C-cells in the peripheral zone of the thyroid lobe may be evidence of an unbalance in the development of the medial and lateral source of the thyroid. There is a verifiable increase in the quantity of C-cells per 1 mm(2) field of the localization in the central zone of the gestation days 10 and 16 groups. This might be a compensatory mechanism for regulating the activity of the thyroid gland under induced
hypothyroidism
. Thus, in cases when there is a breakdown in the normal external regulation of the embryonic morphogenesis, a reduction in the level of maternal thyroid hormones and also direct exposure to (131)I, there is also a change in the foetus' internal regulatory systems. A change in C-cell system could lead to the appearance of endocrinological disorders later in life.
Anat
Rec
1999 09 01
PMID:The influence of maternal hypothyroidism and radioactive iodine on rat embryonal development: thyroid C-cells. 1045 80
Hypothyroidism
was diagnosed in 50 dogs and excluded in 86 dogs suspected of
hypothyroidism
, on the basis of the results of bovine thyrotropin response tests. Breed, pedigree, sex or neutering status did not significantly influence the likelihood of the dogs being hypothyroid. The hypothyroid dogs were significantly older than the non-hypothyroid dogs referred to the University of Glasgow during the same period. However, when dogs under two years of age were excluded from the statistical analyses there was no significant difference in age between the two groups. The most common clinical characteristics associated with
hypothyroidism
were metabolic signs (84 per cent of cases), particularly lethargy (76 per cent), obesity or weight gain (44 per cent), and exercise intolerance (24 per cent); and dermatological abnormalities (80 per cent), including alopecia (56 per cent), poor coat quality (30 per cent) and hyperpigmentation (20 per cent). When compared with the laboratory reference limits the most common biochemical and haematological abnormalities were increased concentrations of triglycerides (88 per cent), cholesterol (78 per cent), glucose (49 per cent), and fructosamine (43 per cent), and increased activities of creatine kinase (35 per cent), and decreased concentrations of inorganic phosphate (63 per cent), and a low red blood cell count (40 per cent). When compared with reference limits derived from the euthyroid dogs the most common abnormalities were increased concentrations of gamma-glutamyltransferase (21 per cent), cholesterol (18 per cent), and aspartate aminotransferase (15 per cent) and a decreased red blood cell count (29 per cent), and decreased neutrophils (18 per cent) and decreased activity of creatine kinase (15 per cent). Assessment of cholesterol, creatine kinase, aspartate aminotransferase, gamma-glutamyltransferase, and red blood cell and neutrophil counts may be particularly useful in distinguishing hypothyroid dogs from euthyroid animals with similar clinical signs.
Vet
Rec
1999 Oct 23
PMID:Epidemiological, clinical, haematological and biochemical characteristics of canine hypothyroidism. 1059 70
Previous studies on the rdw rat have suggested that its dwarfism is caused primarily by dysfunction of the thyroid gland. In this study, rat thyroid glands were analyzed endocrinologically and morphologically to clarify the primary cause of dwarfism in the rdw rat. The rdw rat showed lowered thyroid hormone (T4 and T3) levels but elevated TSH in serum. The rdw thyroid gland was almost proportional in size and it was not goiter in gross inspection. Our histological investigation produced three results that may lend important evidence in understanding the problem in the thyroid gland of rdw rats. First of all, secretory granules could not be detected in the follicular epithelial cells of the rdw. Secondly, thyroglobulin was found at very low levels in the follicular lumen by immunohistochemical analysis. In contrast, it could be detected in a substantial quantity inside the dilated rER and in the huge vacuoles that are formed by swelling of the rough endoplasmic reticulum (rER) at the basal side of the follicular epithelial cells. Additionally, the nucleus of the follicular epithelial cells was pressed to the luminal side by the enlarged rER. These morphological changes would indicate that the transport of thyroglobulin is stopped at or before the formation of the secretory granules and thyroglobulin is not secreted into the follicular lumen. The rdw characterization strongly supports that rdw dwarfism is induced by
hypothyroidism
due to some defect(s) in the thyroid gland.
Anat
Rec
2000 05 01
PMID:Missing secretory granules, dilated endoplasmic reticulum, and nuclear dislocation in the thyroid gland of rdw rats with hereditary dwarfism. 1076 Jul 44
A five-year-old male boxer, previously diagnosed with leishmaniasis and
hypothyroidism
, had gradually become unable to bear weight on its left hindlimb. Physical examination revealed a left popliteal lymphadenopathy, mild crepitus, and severe swelling of the left tarsal joint, a radiographic examination of which revealed severe bone destruction of the talus and a periosteal reaction of the calcaneus. Laboratory findings and serological tests suggested an active leishmanial infection, and a Leishmania species was identified by direct cytology of a sample from the osteolytic area and by indirect immunohistochemistry of a bone biopsy. The dog's condition improved when it was treated with meglumine antimonate and allopurinol. Because of the large osteolytic area and the increased use of the affected leg, a partial tarsal arthrodesis was performed to prevent a fracture. Five months after the surgery, the osteolytic area had healed completely and the calcaneus periosteal reaction had disappeared.
Vet
Rec
2004 Oct 30
PMID:Management of leishmanial osteolytic lesions in a hypothyroid dog by partial tarsal arthrodesis. 1555 22
Thyroid-stimulating hormone (TSH) is routinely measured in blood to diagnose thyroid disorders using immunoassays. This study used recombinant TSH (recTSH) as a source of hormonal compound exhibiting a serum-type glycosylation and putatively reflecting physiopathological alterations in TSH polymorphism. Mass spectrometry revealed that in recTSH, both subunits display high-molecular-size glycoforms compared to the pituitary hormone (pitTSH), indicating more complex glycosylation. To determine how changes in TSH glycosylation may affect epitope expression, comparative epitope mapping of
rec
- and pitTSH was carried out using a panel of ten hormone-specific monoclonal antibodies. Three common epitopes, I, II and III, were identified as common to both preparations and allowed the design of six assays as I/II, II/I, I/III, III/I, II/III, and III/II. Highly sialylated recTSHs were produced by enzymatic remodeling to mimic the hormone circulating in blood and revealed limited expression of epitope I, but enhanced recognition of epitope II. Fractionation on a lentil lectin-Sepharose column allowed selection of non-fucosylated recTSH, thought to be associated with primary
hypothyroidism
. Recognition of epitope I was not modified by TSH core fucosylation, while epitope III expression was increased in non-fucosylated glycoforms. Taken together, our findings demonstrate that changes in both core and terminal glycosylation alter epitope expression in TSH and thereby induce highly variable antibody recognition, resulting in significant discordances among hormone measurements.
...
PMID:Both core and terminal glycosylation alter epitope expression in thyrotropin and introduce discordances in hormone measurements. 1589 74
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